CN221022551U - Servo electric mechanism convenient for bending and forming gift box - Google Patents

Abstract

The utility model relates to the technical field of box flanging, in particular to a servo electric mechanism convenient for bending and forming of gift boxes, which comprises a die assembly used for pressing box paper to be folded, wherein a first flanging die set and a second flanging die set which move transversely and longitudinally are respectively arranged on the periphery of the die assembly, the first flanging die set can be close to the die assembly to erect the side edge of the box paper along the die assembly, and the second flanging die set can be close to the die assembly to inwards fold and flatten the erected box paper; the box paper that will turn over is compressed tightly through the mould subassembly, and first turn-ups module work can be close to the side border of mould subassembly with box paper the mould subassembly stands up, and then second turn-ups module work is close to the mould subassembly and turns over the box paper that stands up inwards and flattens, because first turn-ups module and second turn-ups module homoenergetic longitudinal movement, therefore when the turn-ups, first turn-ups module can turn over into required shape with smooth box paper along the mould subassembly, guarantees quality, and the yields is high.

Description

Servo electric mechanism convenient for bending and forming gift box

Technical Field

The utility model relates to the technical field of box flanging, in particular to a servo electric mechanism convenient for bending and forming of a gift box.

Background

With the development of electronic commerce, more and more goods are transported by means of express delivery and the like. In order to protect goods during transportation, and in order to enhance the aesthetic appearance of packages of products for sale, the demand for gift boxes, color boxes, etc. for packaging these goods has been drastically increased.

In the production of such a packaging box, it is necessary to fold the insert flaps on both sides of the box, respectively, and then fold the cover, and then fold the insert panel of the cover and insert it into the box body, thereby completing the hemmed closure of the box.

The utility model of China with the application number of CN202223031822.5 discloses a packing box edge folding and box sealing mechanism which comprises a feeding hopper, wherein the top of the feeding hopper is fixedly connected with a fixing frame, the front end and the rear end of two sides of the fixing frame are fixedly connected with supporting blocks, an inner cavity of each supporting block is movably connected with a movable pipe, and an inner cavity of each movable pipe is movably connected with a movable column. According to the utility model, the supporting block, the movable pipe, the movable column, the first spring, the clamping plate, the first connecting plate, the electric push rod and the second connecting rod are arranged, and the electric push rod is used for driving the second connecting rod to move, so that the movable pipe is driven to move, the movable pipe presses the first spring and deforms the first spring when moving, the reset elastic force of the first spring fixes the position of the packing box, and the clamping force of the first spring on the packing box is reset elastic force, so that the deformation of the packing box caused by overlarge clamping force can be prevented.

In the above-mentioned scheme, when turning over the side of box, the grip block all moves in the horizontal direction, and when the side was not slightly standing, two grip blocks direct each other can lead to the side can't turn over into normal shape, can't turn over the cuboid box of turning over into, and the quality is not good, and the yields is low.

Disclosure of utility model

The utility model aims to provide a servo electric mechanism which is convenient for bending and forming a gift box and aims to overcome the defects of the prior art.

In order to achieve the above purpose, the technical scheme of the utility model is as follows:

the utility model provides a servo electric mechanism convenient to gift box bending, is including being used for pushing down the mould subassembly of waiting to turn over the box paper of rolling over, the mould subassembly periphery is provided with horizontal, vertically moving first turn-ups module and second turn-ups module respectively, and wherein first turn-ups module can be close to the mould subassembly with the side border of box paper the mould subassembly stands up, and wherein the second turn-ups module can be close to the mould subassembly and inwards turn over the box paper of standing up and roll over the flattening.

Further: the first flanging die set comprises first flanging seats which are respectively arranged on two sides of the die assembly, the first flanging seats are provided with first flanging blocks which can longitudinally move, and the first flanging blocks can prop against the side edges of the box paper and enable the side edges to be attached to the die assembly to stand up.

Further: the first flanging die set is further provided with a first lifting driving piece and a first transverse driving piece, wherein the first linear guide rail is arranged below the die assembly, the two first flanging seats are close to each other or far away from each other along the first linear guide rail, and the first lifting driving piece is used for driving the first flanging block to longitudinally move, and the first transverse driving piece is used for driving the first flanging block to transversely move.

Further: the second flanging die set is located first flanging die set top, including the second flanging seat that can longitudinal movement, second flanging seat slidable mounting has roller casting die and flattens the piece, and roller casting die and flatten the piece and can turn over inwards in proper order along the box paper that the second flanging seat relatively moved and flatten the pair.

Further: the second flanging die set further comprises a second linear guide rail which is longitudinally arranged, the second linear guide rail is slidably provided with a lifting driving seat, the second flanging seat is arranged on the lifting driving seat, and the second flanging seat is provided with a second transverse driving piece for transverse movement of the rolling piece and a third transverse driving piece for transverse movement of the flattening piece.

Further: the second flanging seat comprises a first mounting block which is transversely arranged and a second mounting block which is obliquely arranged, the second transverse driving piece is arranged along the length direction of the first mounting block, and the third transverse driving piece is arranged along the length direction of the second mounting block.

Further: the second transverse driving piece and the third transverse driving piece both comprise a belt transmission mechanism and a transverse guide rail parallel to the belt transmission mechanism, a guide rail sliding seat is slidably mounted on the transverse guide rail, the guide rail sliding seat of the second transverse driving piece is connected with the rolling piece, and the guide rail sliding seat of the third transverse driving piece is connected with the flattening piece.

Further: the die assembly comprises a surrounding seat of a cuboid structure, and a push rod capable of poking the paper box with the edge sealed outwards is arranged on the surrounding seat along the length direction.

Further: the die assembly further comprises a die holder lifting driving piece for driving the surrounding seat to longitudinally move, the die holder lifting driving piece comprises a vertical seat frame, the vertical seat frame is provided with a die holder guide rail which is longitudinally arranged, and the die holder guide rail is slidably provided with a lifting frame for installing the surrounding seat.

Further: the lifting frame is transversely provided with a movable groove, a rack part capable of moving is arranged in the movable groove, one end of the rack part is connected with the push rod, and the lifting frame is provided with a gear part meshed with the rack part for transmission.

The utility model has the beneficial effects that: the box paper that will turn over is compressed tightly through the mould subassembly, and first turn-ups module work can be close to the side border of mould subassembly with box paper the mould subassembly stands up, and then second turn-ups module work is close to the mould subassembly and turns over the box paper that stands up inwards and flattens, because first turn-ups module and second turn-ups module homoenergetic longitudinal movement, therefore when the turn-ups, first turn-ups module can turn over into required shape with smooth box paper along the mould subassembly, guarantees quality, and the yields is high.

Drawings

Fig. 1 is a schematic view of a servo motor mechanism for bending and forming a gift box.

Fig. 2 is a schematic structural diagram of the first flanging module.

Fig. 3 is a schematic structural diagram of the second flanging module.

Fig. 4 is a schematic structural view of a mold assembly.

The reference numerals include:

1-a first flanging die set,

11-A first linear guide rail, 12-a first flanging seat, 13-a transverse rack, 14-a driving gear,

15-A first lifting driving piece, 16-a lifting seat, 17-a first transverse driving piece, 18-a first flanging block, 19-a bottom seat,

A 2-second flanging die set,

21-Second linear guide rail, 22-lifting driving seat, 23-screw transmission assembly, 24-second flanging seat, 25-first mounting block, 26-second mounting block, 27-rolling piece, 28-flattening piece,

3-A second transverse driving member,

31-Third transverse driving piece, 32-belt transmission mechanism, 33-guide rail sliding seat, 34-transverse guide rail, 4-die assembly,

40-A vertical seat frame, 41-a surrounding seat, 42-a push rod, 43-a movable hole, 44-a die holder lifting driving piece,

45-Die holder guide rails, 46-lifting frames, 47-movable grooves, 48-tooth conditions and 49-gear parts.

Detailed Description

The present utility model will be described in detail below with reference to the accompanying drawings.

As shown in fig. 1-4, a servo electric mechanism for facilitating bending and forming of a gift box comprises a die assembly 4 for pressing box paper to be folded, wherein a first flanging die set 1 and a second flanging die set 2 which move transversely and longitudinally are respectively arranged on the periphery of the die assembly 4, the first flanging die set 1 can be close to the die assembly 4 to erect the side edge of the box paper on the die assembly 4, and the second flanging die set 2 can be close to the die assembly 4 to fold and flatten the erected box paper inwards.

The box paper that will turn over is compressed tightly through mould subassembly 4, and first turn-ups module 1 work can be close to mould subassembly 4 with the side border of box paper the mould subassembly 4 stands up, and then second turn-ups module 2 work is close to mould subassembly 4 and turns over the box paper that stands up inwards and flattens, because first turn-ups module 1 and second turn-ups module 2 homoenergetic longitudinal movement, therefore when the turn-ups, first turn-ups module 1 can turn over into required shape with smooth box paper along mould subassembly 4, guarantees the quality, and the yields is high.

Specifically, the first flanging die set 1 includes first flanging seats 12 respectively arranged at two sides of the die assembly 4, the first flanging seats 12 are provided with first flanging blocks 18 capable of moving longitudinally, the first flanging blocks 18 can prop against the side edges of the box paper and enable the side edges to be attached to the die assembly 4 to stand up, the two first flanging seats 12 can be close to or far away from each other, when the first flanging seats 12 are close to the die assembly 4, the tops of the first flanging blocks 18 prop against the side edges of the box paper and jack up and attach the side edges of the box paper to the die assembly 4; prevent to crush the box paper, the side of box paper turns over the shape of rolling over more neat, and the trace of formation is clearer, is convenient for follow-up carton shaping.

Preferably, the first flanging die set 1 further comprises a bottom seat 19 for supporting the box paper, the box paper is transferred to the bottom seat 19 through a positioning bottom plate for supporting, and then the box paper is pressed and folded to be formed through the die assembly 4.

Further, the first flanging die-set 1 further comprises a first linear guide 11 arranged below the die assembly 4, and the two first flanging seats 12 are close to each other or far from each other along the first linear guide 11.

Preferably, the first linear guide 11 is provided with a sliding seat, the first flanging seat 12 is arranged on the sliding seat, the first flanging seat 12 is provided with a transverse rack 13 along the length direction, the side of the first linear guide 11 is provided with a driving gear 14, and the driving gear 14 is in meshed transmission with the transverse rack 13, so that the first flanging seat 12 can transversely move along the first linear guide 11.

Further, the first flanging seat 12 is provided with a motor in transmission connection with the driving gear 14, and the motors of the two first flanging seats 12 are in signal connection, so that the two first flanging seats 12 can simultaneously move transversely along the first linear guide rail 11 to realize simultaneous relative or opposite movement.

The first flanging seat 12 is provided with a first lifting driving piece 15 which drives the first flanging block 18 to longitudinally move, and under the drive of the first lifting driving piece 15, the top of the first flanging block 18 can prop against the side edge of the box paper, and the side edge of the box paper is jacked up along the die assembly 4 to be folded by 90 degrees.

Preferably, the first lifting driving member 15 may be a telescopic cylinder or a rack and pinion mechanism; the rack and pinion mechanism comprises a longitudinal block arranged perpendicular to the longitudinal direction of the first flanging seat 12, a longitudinally arranged guide rail is arranged on the longitudinal block, a lifting seat 16 is slidably arranged on the guide rail, the lifting seat 16 moves in the vertical direction under the transmission of the rack and pinion mechanism, and under the transmission of a first transverse driving piece 17,

The first transverse driving piece 17 is arranged on the lifting seat 16, the first transverse driving piece 17 is a telescopic cylinder transversely arranged on the lifting seat 16, and a first flanging block 18 of the telescopic cylinder is arranged on the driving end of the telescopic cylinder; so that the first flanging block 18 can move transversely, and when the positions of some box papers change, the first flanging block 18 can be kept against the box papers, so that the turnover flanging is realized.

The second flanging die set 2 is located above the first flanging die set 1, and comprises a second flanging seat 24 capable of longitudinally moving, a rolling piece 27 and a flattening piece 28 are slidably mounted on the second flanging seat 24, and the rolling piece 27 and the flattening piece 28 can be folded inwards and flattened in sequence along the second flanging seat 24 in a relatively moving manner for the opposite box paper. In this embodiment, after the first flanging die set 1 turns over the side edges of the box paper and stands up, the two side edges are held against, the rolling piece 27 and the flattening piece 28 work, the rolling piece 27 is close to the die assembly 4, one top edge is turned inwards to roll and flatten, the tabletting piece works, and the other top edge is turned inwards to roll and flatten, so that the side edges of the box paper can form a preliminary box around the die assembly 4.

Specifically, the second flanging die set 2 further includes a second linear guide rail 21 longitudinally arranged, and the second linear guide rail 21 is slidably provided with a lifting driving seat 22, so that the lifting driving seat 22 can move up and down along the second linear guide rail 21, and the second flanging seat 24 is installed on the lifting driving seat 22, that is, the second flanging seat 24 can move in the vertical direction.

Preferably, the second linear guide 21 is provided with a screw transmission assembly 23 along its length direction, and a sliding end of the screw transmission assembly 23 is connected with the lifting driving seat 22, that is, the second flanging seat 24 is capable of moving in the vertical direction.

The second flanging seat 24 is provided with a second transverse driving piece 3 for transversely moving the rolling piece 27 and a third transverse driving piece 31 for transversely moving the flattening piece 28, the rolling piece 27 can transversely move along the second flanging seat 24 under the driving of the second transverse driving piece 3, the bottom of the rolling piece 27 can prop against the outer side of the top edge of the box paper, then the rolling piece 27 transversely moves, the top edge of the box paper is folded inwards for rolling, and then the flattening piece 28 is driven by the third transverse driving piece 31 to prop against the outer side of the top edge of the box paper, the top edge of the box paper is folded inwards for rolling, and the top edge of the box paper can be folded inwards for flattening.

Specifically, the second flanging seat 24 includes a first mounting block 25 that is transversely arranged and a second mounting block 26 that is obliquely arranged, the second transverse driving member 3 is arranged along the length direction of the first mounting block 25, the third transverse driving member 31 is arranged along the length direction of the second mounting block 26, when the flattening member 28 approaches the die assembly 4, the movement path of the flattening member 28 is obliquely downward, that is, the end of the flattening member 28 firstly abuts against the outer side of the top edge of the box paper, after the flattening member continuously traverses, the top edge of the box paper is folded inwards by 90 ° until reaching the top of the die assembly 4, and the top edge of the box paper is attached to the top of the die assembly 4 to form a box preliminarily.

Preferably, the second transverse driving member 3 and the third transverse driving member 31 both comprise a belt transmission mechanism 32 and a transverse guide rail 34 parallel to the belt transmission mechanism 32, the transverse guide rail 34 is slidably provided with a guide rail sliding seat 33, the guide rail sliding seat 33 of the second transverse driving member 3 is connected with the rolling member 27, the guide rail sliding seat 33 of the third transverse driving member 31 is connected with the flattening member 28, the servo motor drives the belt transmission mechanism 32 to move, and the flattening member 28 and the rolling member 27 can move along corresponding transverse tracks under the guidance of the transverse guide rail 34, so that the top edge of the box paper can be folded inwards.

The mold assembly 4 includes a surrounding seat 41 of a rectangular parallelepiped structure, and the shape of the box is made similar to the surrounding seat 41 by the shape of the surrounding seat 41. The surrounding seat 41 is provided with a push rod 42 which can poke the paper box with the edge sealed outwards along the length direction, the surrounding seat 41 is formed with a movable hole 43 for the push rod 42 to move through, after the paper box is formed, the push rod 42 can push the paper box outwards, and the next paper box can be folded into the paper box.

Preferably, the die assembly 4 further comprises a die holder lifting driving piece 44 for driving the surrounding seat 41 to longitudinally move, the die holder lifting driving piece 44 comprises a vertical seat frame 40, a longitudinally arranged die holder guide rail 45 is arranged on the vertical seat frame 40, a lifting frame 46 for installing the surrounding seat 41 is slidably arranged on the die holder guide rail 45, and the lifting frame 46 can be driven by a lifting cylinder to lift in the vertical seat frame 40 along the die holder guide rail 45, so that the surrounding seat 41 can longitudinally movably press box paper to be folded.

The lifting frame 46 is transversely provided with a movable groove 47, the movable groove 47 is provided with a rack member 48 capable of moving through, one end of the rack member 48 is connected with the push rod 42, the lifting frame 46 is provided with a gear member 49 meshed with the rack member 48, after the paper box is folded and molded, the gear member 49 moves under the driving of a servo motor and is meshed with the rack member 48 to drive the push rod 42 to pass through the movable hole 43 to push out, and the paper box can be separated from the surrounding seat 41 for the next paper box to be molded.

Preferably, the top edge and the side edge of the box paper are both coated with adhesive glue, and the top edge and the side edge are not easy to fall off after being folded and folded when the folded edge is folded.

In view of the above, the present utility model has the above-mentioned excellent characteristics, so that it can be used to improve the performance and practicality of the prior art, and is a product with great practical value.

The foregoing is merely exemplary of the present utility model, and those skilled in the art should not be considered as limiting the utility model, since modifications may be made in the specific embodiments and application scope of the utility model in light of the teachings of the present utility model.

Claims (8)

1. A servo electric mechanism convenient for bending and forming of a gift box is characterized in that: including being used for pushing down the mould subassembly of the box paper that waits to turn over, with the first turn-ups module and the second turn-ups module that the mould subassembly cooperation was used, wherein first turn-ups module can be close to the mould subassembly with the side border of box paper the mould subassembly stands up, wherein the second turn-ups module can be close to the mould subassembly and fold up the flattening inwards with the box paper that stands up after the processing of first turn-ups module.

2. A servo motor mechanism for facilitating bending of a gift box according to claim 1, wherein: the second flanging die set is located first flanging die set top, including the second flanging seat that can longitudinal movement, second flanging seat slidable mounting has the piece of flattening and pivoted roll-in spare, and roll-in spare and flattening piece are along second flanging seat can inwards turn over in proper order to flatten to the box paper of opposite ground.

3. A servo motor mechanism for facilitating bending of a gift box according to claim 2, wherein: the second flanging die set further comprises a second linear guide rail which is longitudinally arranged, the second linear guide rail is slidably provided with a lifting driving seat, the second flanging seat is arranged on the lifting driving seat, and the second flanging seat is provided with a second transverse driving piece for transverse movement of the rolling piece and a third transverse driving piece for transverse movement of the flattening piece.

4. A servo motor mechanism for facilitating bending of a gift box according to claim 3, wherein: the second flanging seat comprises a first installation block and a second installation block, wherein the first installation block is transversely arranged, the second installation block is obliquely arranged, the second transverse driving piece is arranged along the length direction of the first installation block, and the third transverse driving piece is arranged along the length direction of the second installation block.

5. A servo motor mechanism for facilitating bending of a gift box according to claim 4, wherein: the second transverse driving piece and the third transverse driving piece both comprise a belt transmission mechanism and a transverse guide rail parallel to the belt transmission mechanism, a guide rail sliding seat is slidably arranged on the transverse guide rail, the guide rail sliding seat of the second transverse driving piece is connected with the rolling piece, and the guide rail sliding seat of the third transverse driving piece is connected with the flattening piece.

6. A servo motor mechanism for facilitating bending of a gift box according to claim 1, wherein: the die assembly comprises a surrounding seat of a cuboid structure, and a push rod capable of pushing out the paper box with the edge sealed outwards is arranged on the surrounding seat along the length direction.

7. A servo motor mechanism for facilitating bending of a gift box according to claim 6, wherein: the die assembly further comprises a die holder lifting driving piece for driving the surrounding seat to longitudinally move, the die holder lifting driving piece comprises a vertical seat frame, the vertical seat frame is provided with a die holder guide rail which is longitudinally arranged, and the die holder guide rail is slidably provided with a lifting frame for installing the surrounding seat.

8. A servo motor mechanism for facilitating bending of a gift box according to claim 7, wherein: the lifting frame is transversely provided with a movable groove, a rack part capable of moving is arranged in the movable groove, one end of the rack part is connected with the push rod, and the lifting frame is provided with a gear part meshed with the rack part for transmission.